We present an analog of the phenomenon of orthogonality catastrophe in quantum many-body systems subject to a local dissipative impurity. We show that the fidelity F(t), giving a measure for distance of the time-evolved state from the initial one, displays a universal scaling form F(t)∝t^θe^-γt, when the system supports long-range correlations, in a fashion reminiscent of traditional instances of orthogonality catastrophe in condensed matter. An exponential falloff at rate γ signals the onset of environmental decoherence, which is critically slowed down by the additional algebraic contribution to the fidelity. This picture is derived within a second-order cumulant expansion suited for Liouvillian dynamics, and substantiated for the one-dimensional transverse field quantum Ising model subject to a local dephasing jump operator, as well as for XY and XX quantum spin chains, and for the two-dimensional Bose gas deep in the superfluid phase with local particle heating. Our results hint that local sources of dissipation can be used to inspect real-time correlations and to induce a delay of decoherence in open quantum many-body systems.

Orthogonality Catastrophe in Dissipative Quantum Many-Body Systems / Tonielli, F.; Fazio, R.; Diehl, S.; Marino, J.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 122:4(2019), p. 040604. [10.1103/PhysRevLett.122.040604]

Orthogonality Catastrophe in Dissipative Quantum Many-Body Systems

Fazio R.;
2019

Abstract

We present an analog of the phenomenon of orthogonality catastrophe in quantum many-body systems subject to a local dissipative impurity. We show that the fidelity F(t), giving a measure for distance of the time-evolved state from the initial one, displays a universal scaling form F(t)∝t^θe^-γt, when the system supports long-range correlations, in a fashion reminiscent of traditional instances of orthogonality catastrophe in condensed matter. An exponential falloff at rate γ signals the onset of environmental decoherence, which is critically slowed down by the additional algebraic contribution to the fidelity. This picture is derived within a second-order cumulant expansion suited for Liouvillian dynamics, and substantiated for the one-dimensional transverse field quantum Ising model subject to a local dephasing jump operator, as well as for XY and XX quantum spin chains, and for the two-dimensional Bose gas deep in the superfluid phase with local particle heating. Our results hint that local sources of dissipation can be used to inspect real-time correlations and to induce a delay of decoherence in open quantum many-body systems.
2019
Orthogonality Catastrophe in Dissipative Quantum Many-Body Systems / Tonielli, F.; Fazio, R.; Diehl, S.; Marino, J.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 122:4(2019), p. 040604. [10.1103/PhysRevLett.122.040604]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/776895
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